Synthesis and Properties of the Tetrakis(trifluoromethyl)borate Anion, [B(CF3)4]−: Structure Determination of Cs[B(CF3)4] by Single-Crystal X-ray Diffraction

Abstract: Salts of the tetrakis(trifluoromethyl)borate anion, M[B(CF3)4], M=Li, K, Cs, Ag, have been prepared by two different routes for the first time. The colorless compounds are thermally stable up to 425 C (Cs salt) and soluble in anhydrous HF, water, and most organic solvents. Single crystals of Cs[B(CF3)4] were grown from diethyl ether by diffusion of CH2Cl2 vapor into the solution. The molecular structure was obtained by single-crystal X-ray diffraction. Crystal data: rhombohedral space group R3m (no. 160); a =7… Show more

“…Recently we have shown that the tetracyanoborate anion [B(CN) 4 ] À [13][14][15] can be converted into the tetrakis(trifluoromethyl)borate anion [B(CF 3 ) 4 ] À [16] via fluorination with ClF or ClF 3 in anhydrous HF (Eq. (9)): In contrast to CF 3 -transfer reactions employed in the synthesis of trifluoromethyl transition metal complexes so far, this approach leads to the conversion of a cyano into a CF 3 À ligand that is already attached to the central atom.…”

“…the conversion of NCCH 2 CH 2 CN to CF 3 CH 2 CH 2 CF 3 [19]. Interestingly, the reaction of organic nitriles, RCN, with ClF [20][21][22][23] or ClF 5 [24] leads in general to the formation of RCF 2 NCl 2 or RCF 2 NClF, respectively, whereas such products were not observed in the fluorination of [B(CN) 4 ] À with either ClF or ClF 3 [16].…”

Synthesis and NMR spectroscopic investigation of salts containing the novel [Au(CF3)nX4−n]− (n=4–1, X=F, CN, Cl) anions

“…Recently we have shown that the tetracyanoborate anion [B(CN) 4 ] À [13][14][15] can be converted into the tetrakis(trifluoromethyl)borate anion [B(CF 3 ) 4 ] À [16] via fluorination with ClF or ClF 3 in anhydrous HF (Eq. (9)): In contrast to CF 3 -transfer reactions employed in the synthesis of trifluoromethyl transition metal complexes so far, this approach leads to the conversion of a cyano into a CF 3 À ligand that is already attached to the central atom.…”

“…the conversion of NCCH 2 CH 2 CN to CF 3 CH 2 CH 2 CF 3 [19]. Interestingly, the reaction of organic nitriles, RCN, with ClF [20][21][22][23] or ClF 5 [24] leads in general to the formation of RCF 2 NCl 2 or RCF 2 NClF, respectively, whereas such products were not observed in the fluorination of [B(CN) 4 ] À with either ClF or ClF 3 [16].…”

Synthesis and NMR spectroscopic investigation of salts containing the novel [Au(CF3)nX4−n]− (n=4–1, X=F, CN, Cl) anions

“…Borate anions are valuable components for materials used in many applications, for example Li + salts for battery technologies [1], ionic liquids [2,3], components of electrolytes for dyesensitized solar cells (Grä tzel cells, DSSCs [4]) [5,6], and weakly coordinating anions for the stabilization of highly reactive cations [7][8][9][10][11][12], e.g. in catalysis.…”

Salts of novel chelatoborate anions: [R F BX(ox)] − (R F = CF 3 , C 2 F 5 ; X = F, OMe; ox = oxalato) and [R F B(OMe)(cat)] − (R F = CF 3 , C 2 F 5 ; cat = catecholato)

“…[4][5][6][7][8] Compounds are known that contain solvent molecules, for example, K[B(CN) 4 ]·THF [6,9] or [NH 4 ][B(CN) 4 ]·CH 3 CN, [6,9] and, furthermore, there are established tetracyanidoborate alkali cations complexed by macrocyclic polyether molecules, which show an unusual network of low-dimensional salt chains with different coordination behavior between the encapsulated alkali metal cations and the multifunctional [B(CN) 4 ]units. Therefore, tetracyanidoborates became a useful starting material for unusual anions such as [B(CF 3 ) 4 ]or [B{CN·B(C 6 F 5 ) 3 } 4 ] -, [4,[11][12][13][14][15][16][17][18][19][20] which are able to stabilize highly reactive cations. Therefore, tetracyanidoborates became a useful starting material for unusual anions such as [B(CF 3 ) 4 ]or [B{CN·B(C 6 F 5 ) 3 } 4 ] -, [4,[11][12][13][14][15][16][17][18][19][20] which are able to stabilize highly reactive cations.…”

Conductivity, Structures, Spectra, and Thermal Properties of Lithium and Sodium Tetracyanidoborates with Crown Ether Encapsulated Cations: Isolated Ions in [A^I(12‐crown‐4)₂][B(CN)₄] and 1D Chains in [A^I (15‐crown‐5)][B(CN)₄] (A^I = Li, Na)